Membrane cofactor protein (CD46) of complement. Processing differences related to alternatively spliced cytoplasmic domains

Abstract

Membrane cofactor protein (MCP, CD46), a widely distributed regulatory protein, inhibits complement activation on host cells and serves as a measles virus receptor. Most cells express four isoforms (with one of two cytoplasmic tails, CYT-1 or CYT-2). Previously, we noted that MCP precursors had variable intracellular processing. Therefore, we characterized the intracellular transport of individual MCP isoforms. Transfectants were used for pulse-chase analyses. MCP isoforms bearing CYT-1 chased into their mature, surface forms with a half-life (t1/2) of 10-13 min while those with CYT-2 required 35-40 min. The precursor of a tail-less mutant possessed a t1/2 of 160-165 min. Chimeras were constructed that added both tails in opposite orientation onto the isoform (i.e. CYT 1 + 2 or CYT 2 + 1). Chimera 1 + 2 precursor processed with a t1/2 of 35-37 min, similar to CYT-2. Chimera 2 + 1 had a t1/2 of 15-19 min, more closely resembling CYT-1. Thus, in both cases the carboxyl-terminal tail controlled the processing rate. Deletions were made in the beginning, middle, and carboxyl terminus of CYT-1. Deletion of the first or middle six amino acids had no effect on the processing rate. However, deletion of the terminal tetrapeptide (FTSL) slowed the rate to 30-32 min, suggesting that this sequence facilitates exit from the endoplasmic reticulum.